Abstract. The problem of computing Craig Interpolants for propositional (SAT) formulas has recently received a lot of interest, mainly for its applications in formal verification. However, propositional logic is often not expressive enough for representing many interesting verification problems, which can be more naturally addressed in the framework of Satisfiability Modulo Theories, SMT. Although some works have addressed the topic of generating interpolants in SMT, the techniques and tools that are currently available have some limitations, and their performace still does not exploit the full power of current state-of-the-art SMT solvers. In this paper we try to close this gap.We present several techniques for interpolant generation in SMT which overcome the limitations of the current generators mentioned above, and which take full advantage of state-of-the-art SMT technology. These novel techniques can lead to substantial performance improvements wrt. the currently available tools. We support our claims with an extensive experimental evaluation of our implementation of the proposed techniques in the MathSAT SMT solver.
Efficient Interpolant Generation in Satisfiability Modulo Theories
Cimatti, Alessandro;Griggio, Alberto;Sebastiani, Roberto
2008-01-01
Abstract
Abstract. The problem of computing Craig Interpolants for propositional (SAT) formulas has recently received a lot of interest, mainly for its applications in formal verification. However, propositional logic is often not expressive enough for representing many interesting verification problems, which can be more naturally addressed in the framework of Satisfiability Modulo Theories, SMT. Although some works have addressed the topic of generating interpolants in SMT, the techniques and tools that are currently available have some limitations, and their performace still does not exploit the full power of current state-of-the-art SMT solvers. In this paper we try to close this gap.We present several techniques for interpolant generation in SMT which overcome the limitations of the current generators mentioned above, and which take full advantage of state-of-the-art SMT technology. These novel techniques can lead to substantial performance improvements wrt. the currently available tools. We support our claims with an extensive experimental evaluation of our implementation of the proposed techniques in the MathSAT SMT solver.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.